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Biophysical Journal 43: 355-369 (1983)
© 1983 the Biophysical Society
ABSTRACT
The equilibrium interactions of the metallochromic indicator arsenazo III with calcium at physiological ionic strength and pH were investigated spectrophotometrically and with the aid of a calcium electrode. Evidence suggests the formation of more than one dye-calcium complex. The analysis of data obtained over a 10,000-fold range of dye concentrations concludes that at the concentrations used for in vitro biochemical studies (10--100 microM), arsenazo III absorbance changes in response to calcium binding primarily involve the formation of a complex involving two dye molecules and two calcium ions. At millimolar dye concentrations, typical of physiological calcium transient determinations in situ, a second complex involving two arsenazo III molecules and one calcium ion is additionally formed. A third complex, involving one arsenazo III molecule and one calcium ion, is formed at very low dye concentrations. The results reported here suggest that equilibrium calibration of the dye with calcium cannot be used directly to satisfactorily relate transient absorbance changes in physiological preparations to calcium concentration changes since several stoichiometrically distinct complexes with different absorbances could be formed at different rates. The results of this study do not permit the elucidation of a unique kinetic scheme of arsenazo III complexation with calcium; for this, in vitro kinetic analysis is required. Results of similar analysis of the dye interaction with magnesium are also reported, and these appear compatible with a much simpler model of complexation.
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